Chelation Therapies: A Chemical and Biochemical Perspective

E.      J. Baran

doi:10.2174/092986710793213760

Abstract

Chelation therapy occupies a central place in modern medicine and pharmacology, because continuous studies with laboratory animals and extensive clinical experience demonstrate that acute or chronic intoxications with a variety of metals can be considerable improved by administration of a suitable chelating agent. In this review the chemical characteristics, properties and uses of the most common chelating agents as well as those of some new and very promising agents of this type, are discussed. In the second part of the review the biological and biochemical impact of these agents, as well as their use for the treatment of some selected diseases and disorders, are also analyzed and discussed in detail.

Keywords: Toxic metals, chelating agents, chemical characteristics, biological effects, Chelation Therapies, Bioinorganic Chemistry, biolixiviation, remediation, decon-tamination, metal-based drugs, Bertrand diagram, chelation therapy, ligand-to-metal interaction, hard-soft acid-base concept (HSAB), non-essential toxic elements, 2,3-dimercaptopropanol (BAL), Ethylenediaminetetraacetic acid (EDTA), hypocalcemia, nephrotoxic, atherosclerosis, DTPA, CDTA, TTHA, Polyaminopolycarboxylic Acids, Monoalkyl Esters of DMSA, Lipoic Acid (LA), Dihydrolipoic Acid (DHLA), Metal Intoxications, potentiate cadmium toxicity, Vanadium Toxicity, polyaminopolyarboxylic acids, Alzheimer disease, Wilson Disease, Cu/metallothionein, D-penicillamine, nephritic syndrome, autoimmune reactions, (TETA), Desferrioxamine B, deferiprone, deferasirox, macrophages, hepatocytes, plaques, Parkinson's disease, Huntington's disease, blood-brain-barrier, metal-protein attenuating compound (MPAC), clioquinol (CQ), 2-2'-methilenedi-8-quinolinol